分数阶$PI^{\lambda}D^{\mu}$控制器提高磁悬浮系统工作频率:设计与整定

2019 IEEE International Conference on Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER) Pub Date : 2019-08-01 DOI:10.1109/DISCOVER47552.2019.9008060

Samrat Banerjee, R. Mukherjee, Malobi Mukheriee, Somosree Sengupta, S. Pandey

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引用次数: 1

摘要

磁悬浮系统作为一个开环不稳定系统是一个具有挑战性的系统，但它在各个领域都有不同的应用。本文提出了一种分数阶控制器来提高系统的工作频率。首先，建立了用于FOPID控制器整定的MLS数学模型。在此基础上，提出了一种利用频域规范的图形化调谐方法来对分数参数进行调谐。为了验证所提控制方案的优越性，利用MATLAB中的FOMCON工具箱进行了仿真。比较结果表明，在工作频率显著改善，保持一个低稳态误差和峰值超调相对于PID控制器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Operating Frequency Enhancement of Magnetic levitation system using fractional order $PI^{\lambda}D^{\mu}$ Controller: Design and Tuning

Magnetic Levitation System (MLS) is a challenging system as it is an open loop unstable system, but it has varied applications in various fields. In this paper, a fractional order controller for operating frequency enhancement of such a system is proposed. First the mathematical model of MLS was derived for tuning of the FOPID controller. Using this a graphical tuning method using frequency domain specification has been proposed to tune the fractional parameters. In order to validate the superiority of the proposed controller scheme, the simulation was done for which the FOMCON toolbox in MATLAB was used. The comparative results showed a significant improvement in the operating frequency, maintaining a low steady-state error and peak overshoot with respect to a PID controller.

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2019 IEEE International Conference on Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER)

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